Protocol Buffers - Google's data interchange format (grpc依赖)
https://developers.google.com/protocol-buffers/
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436 lines
16 KiB
436 lines
16 KiB
/* |
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* Copyright (c) 2009-2021, Google LLC |
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* All rights reserved. |
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* |
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* Redistribution and use in source and binary forms, with or without |
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* modification, are permitted provided that the following conditions are met: |
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* * Redistributions of source code must retain the above copyright |
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* notice, this list of conditions and the following disclaimer. |
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* * Redistributions in binary form must reproduce the above copyright |
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* notice, this list of conditions and the following disclaimer in the |
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* documentation and/or other materials provided with the distribution. |
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* * Neither the name of Google LLC nor the |
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* names of its contributors may be used to endorse or promote products |
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* derived from this software without specific prior written permission. |
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* |
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* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" |
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* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE |
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* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE |
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* ARE DISCLAIMED. IN NO EVENT SHALL Google LLC BE LIABLE FOR ANY DIRECT, |
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* INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES |
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* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; |
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* LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND |
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* ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT |
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* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS |
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* SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. |
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*/ |
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/* |
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** Our memory representation for parsing tables and messages themselves. |
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** Functions in this file are used by generated code and possibly reflection. |
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** |
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** The definitions in this file are internal to upb. |
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**/ |
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#ifndef UPB_MSG_INT_H_ |
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#define UPB_MSG_INT_H_ |
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#include <stdlib.h> |
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#include <string.h> |
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#include "upb/collections/map_internal.h" |
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#include "upb/extension_registry.h" |
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#include "upb/internal/table.h" |
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#include "upb/msg.h" |
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#include "upb/upb.h" |
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// Must be last. |
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#include "upb/port/def.inc" |
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#ifdef __cplusplus |
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extern "C" { |
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#endif |
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extern const float kUpb_FltInfinity; |
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extern const double kUpb_Infinity; |
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/** upb_MiniTable *************************************************************/ |
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/* upb_MiniTable represents the memory layout of a given upb_MessageDef. The |
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* members are public so generated code can initialize them, but users MUST NOT |
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* read or write any of its members. */ |
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typedef struct { |
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uint32_t number; |
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uint16_t offset; |
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int16_t presence; // If >0, hasbit_index. If <0, ~oneof_index |
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uint16_t submsg_index; // kUpb_NoSub if descriptortype != MESSAGE/GROUP/ENUM |
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uint8_t descriptortype; |
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uint8_t mode; /* upb_FieldMode | upb_LabelFlags | |
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(upb_FieldRep << kUpb_FieldRep_Shift) */ |
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} upb_MiniTableField; |
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#define kUpb_NoSub ((uint16_t)-1) |
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typedef enum { |
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kUpb_FieldMode_Map = 0, |
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kUpb_FieldMode_Array = 1, |
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kUpb_FieldMode_Scalar = 2, |
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} upb_FieldMode; |
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// Mask to isolate the upb_FieldMode from field.mode. |
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#define kUpb_FieldMode_Mask 3 |
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// Extra flags on the mode field. |
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typedef enum { |
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kUpb_LabelFlags_IsPacked = 4, |
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kUpb_LabelFlags_IsExtension = 8, |
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// Indicates that this descriptor type is an "alternate type": |
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// - for Int32, this indicates that the actual type is Enum (but was |
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// rewritten to Int32 because it is an open enum that requires no check). |
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// - for Bytes, this indicates that the actual type is String (but does |
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// not require any UTF-8 check). |
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kUpb_LabelFlags_IsAlternate = 16, |
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} upb_LabelFlags; |
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// Note: we sort by this number when calculating layout order. |
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typedef enum { |
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kUpb_FieldRep_1Byte = 0, |
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kUpb_FieldRep_4Byte = 1, |
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kUpb_FieldRep_StringView = 2, |
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kUpb_FieldRep_8Byte = 3, |
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kUpb_FieldRep_Shift = 6, // Bit offset of the rep in upb_MiniTableField.mode |
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kUpb_FieldRep_Max = kUpb_FieldRep_8Byte, |
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} upb_FieldRep; |
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UPB_INLINE upb_FieldMode upb_FieldMode_Get(const upb_MiniTableField* field) { |
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return (upb_FieldMode)(field->mode & 3); |
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} |
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UPB_INLINE bool upb_IsRepeatedOrMap(const upb_MiniTableField* field) { |
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/* This works because upb_FieldMode has no value 3. */ |
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return !(field->mode & kUpb_FieldMode_Scalar); |
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} |
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UPB_INLINE bool upb_IsSubMessage(const upb_MiniTableField* field) { |
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return field->descriptortype == kUpb_FieldType_Message || |
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field->descriptortype == kUpb_FieldType_Group; |
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} |
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struct upb_Decoder; |
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struct upb_MiniTable; |
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typedef const char* _upb_FieldParser(struct upb_Decoder* d, const char* ptr, |
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upb_Message* msg, intptr_t table, |
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uint64_t hasbits, uint64_t data); |
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typedef struct { |
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uint64_t field_data; |
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_upb_FieldParser* field_parser; |
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} _upb_FastTable_Entry; |
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typedef struct { |
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uint32_t mask_limit; // Limit enum value that can be tested with mask. |
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uint32_t value_count; // Number of values after the bitfield. |
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uint32_t data[]; // Bitmask + enumerated values follow. |
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} upb_MiniTableEnum; |
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typedef enum { |
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_kUpb_FastEnumCheck_ValueIsInEnum = 0, |
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_kUpb_FastEnumCheck_ValueIsNotInEnum = 1, |
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_kUpb_FastEnumCheck_CannotCheckFast = 2, |
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} _kUpb_FastEnumCheck_Status; |
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UPB_INLINE _kUpb_FastEnumCheck_Status |
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_upb_MiniTable_CheckEnumValueFast(const upb_MiniTableEnum* e, uint32_t val) { |
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if (UPB_UNLIKELY(val >= 64)) return _kUpb_FastEnumCheck_CannotCheckFast; |
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uint64_t mask = e->data[0] | ((uint64_t)e->data[1] << 32); |
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return (mask & (1ULL << val)) ? _kUpb_FastEnumCheck_ValueIsInEnum |
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: _kUpb_FastEnumCheck_ValueIsNotInEnum; |
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} |
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UPB_INLINE bool _upb_MiniTable_CheckEnumValueSlow(const upb_MiniTableEnum* e, |
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uint32_t val) { |
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if (val < e->mask_limit) return e->data[val / 32] & (1ULL << (val % 32)); |
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// OPT: binary search long lists? |
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const uint32_t* start = &e->data[e->mask_limit / 32]; |
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const uint32_t* limit = &e->data[(e->mask_limit / 32) + e->value_count]; |
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for (const uint32_t* p = start; p < limit; p++) { |
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if (*p == val) return true; |
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} |
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return false; |
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} |
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// Validates enum value against range defined by enum mini table. |
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UPB_INLINE bool upb_MiniTableEnum_CheckValue(const upb_MiniTableEnum* e, |
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uint32_t val) { |
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_kUpb_FastEnumCheck_Status status = _upb_MiniTable_CheckEnumValueFast(e, val); |
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if (UPB_UNLIKELY(status == _kUpb_FastEnumCheck_CannotCheckFast)) { |
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return _upb_MiniTable_CheckEnumValueSlow(e, val); |
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} |
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return status == _kUpb_FastEnumCheck_ValueIsInEnum ? true : false; |
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} |
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typedef union { |
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const struct upb_MiniTable* submsg; |
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const upb_MiniTableEnum* subenum; |
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} upb_MiniTableSub; |
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typedef enum { |
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kUpb_ExtMode_NonExtendable = 0, // Non-extendable message. |
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kUpb_ExtMode_Extendable = 1, // Normal extendable message. |
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kUpb_ExtMode_IsMessageSet = 2, // MessageSet message. |
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kUpb_ExtMode_IsMessageSet_ITEM = |
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3, // MessageSet item (temporary only, see decode.c) |
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// During table building we steal a bit to indicate that the message is a map |
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// entry. *Only* used during table building! |
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kUpb_ExtMode_IsMapEntry = 4, |
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} upb_ExtMode; |
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struct upb_MiniTable { |
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const upb_MiniTableSub* subs; |
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const upb_MiniTableField* fields; |
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/* Must be aligned to sizeof(void*). Doesn't include internal members like |
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* unknown fields, extension dict, pointer to msglayout, etc. */ |
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uint16_t size; |
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uint16_t field_count; |
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uint8_t ext; // upb_ExtMode, declared as uint8_t so sizeof(ext) == 1 |
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uint8_t dense_below; |
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uint8_t table_mask; |
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uint8_t required_count; // Required fields have the lowest hasbits. |
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/* To statically initialize the tables of variable length, we need a flexible |
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* array member, and we need to compile in gnu99 mode (constant initialization |
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* of flexible array members is a GNU extension, not in C99 unfortunately. */ |
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_upb_FastTable_Entry fasttable[]; |
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}; |
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struct upb_MiniTableExtension { |
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upb_MiniTableField field; |
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const upb_MiniTable* extendee; |
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upb_MiniTableSub sub; /* NULL unless submessage or proto2 enum */ |
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}; |
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typedef struct { |
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const upb_MiniTable** msgs; |
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const upb_MiniTableEnum** enums; |
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const upb_MiniTableExtension** exts; |
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int msg_count; |
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int enum_count; |
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int ext_count; |
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} upb_MiniTableFile; |
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// Computes a bitmask in which the |l->required_count| lowest bits are set, |
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// except that we skip the lowest bit (because upb never uses hasbit 0). |
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// |
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// Sample output: |
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// requiredmask(1) => 0b10 (0x2) |
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// requiredmask(5) => 0b111110 (0x3e) |
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UPB_INLINE uint64_t upb_MiniTable_requiredmask(const upb_MiniTable* l) { |
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int n = l->required_count; |
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assert(0 < n && n <= 63); |
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return ((1ULL << n) - 1) << 1; |
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} |
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/** upb_Message ***************************************************************/ |
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/* Internal members of a upb_Message that track unknown fields and/or |
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* extensions. We can change this without breaking binary compatibility. We put |
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* these before the user's data. The user's upb_Message* points after the |
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* upb_Message_Internal. */ |
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typedef struct { |
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/* Total size of this structure, including the data that follows. |
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* Must be aligned to 8, which is alignof(upb_Message_Extension) */ |
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uint32_t size; |
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/* Offsets relative to the beginning of this structure. |
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* |
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* Unknown data grows forward from the beginning to unknown_end. |
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* Extension data grows backward from size to ext_begin. |
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* When the two meet, we're out of data and have to realloc. |
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* |
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* If we imagine that the final member of this struct is: |
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* char data[size - overhead]; // overhead = |
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* sizeof(upb_Message_InternalData) |
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* |
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* Then we have: |
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* unknown data: data[0 .. (unknown_end - overhead)] |
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* extensions data: data[(ext_begin - overhead) .. (size - overhead)] */ |
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uint32_t unknown_end; |
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uint32_t ext_begin; |
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/* Data follows, as if there were an array: |
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* char data[size - sizeof(upb_Message_InternalData)]; */ |
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} upb_Message_InternalData; |
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typedef struct { |
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upb_Message_InternalData* internal; |
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/* Message data follows. */ |
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} upb_Message_Internal; |
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/* Maps upb_CType -> memory size. */ |
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extern char _upb_CTypeo_size[12]; |
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UPB_INLINE size_t upb_msg_sizeof(const upb_MiniTable* l) { |
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return l->size + sizeof(upb_Message_Internal); |
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} |
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/* Inline version upb_Message_New(), for internal use */ |
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UPB_INLINE upb_Message* _upb_Message_New(const upb_MiniTable* mini_table, |
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upb_Arena* arena) { |
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size_t size = upb_msg_sizeof(mini_table); |
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void* mem = upb_Arena_Malloc(arena, size + sizeof(upb_Message_Internal)); |
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if (UPB_UNLIKELY(!mem)) return NULL; |
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upb_Message* msg = UPB_PTR_AT(mem, sizeof(upb_Message_Internal), upb_Message); |
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memset(mem, 0, size); |
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return msg; |
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} |
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UPB_INLINE upb_Message_Internal* upb_Message_Getinternal(upb_Message* msg) { |
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ptrdiff_t size = sizeof(upb_Message_Internal); |
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return (upb_Message_Internal*)((char*)msg - size); |
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} |
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/* Clears the given message. */ |
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void _upb_Message_Clear(upb_Message* msg, const upb_MiniTable* l); |
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/* Discards the unknown fields for this message only. */ |
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void _upb_Message_DiscardUnknown_shallow(upb_Message* msg); |
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/* Adds unknown data (serialized protobuf data) to the given message. The data |
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* is copied into the message instance. */ |
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bool _upb_Message_AddUnknown(upb_Message* msg, const char* data, size_t len, |
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upb_Arena* arena); |
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/** upb_Message_Extension *****************************************************/ |
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/* The internal representation of an extension is self-describing: it contains |
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* enough information that we can serialize it to binary format without needing |
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* to look it up in a upb_ExtensionRegistry. |
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* |
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* This representation allocates 16 bytes to data on 64-bit platforms. This is |
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* rather wasteful for scalars (in the extreme case of bool, it wastes 15 |
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* bytes). We accept this because we expect messages to be the most common |
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* extension type. */ |
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typedef struct { |
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const upb_MiniTableExtension* ext; |
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union { |
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upb_StringView str; |
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void* ptr; |
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char scalar_data[8]; |
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} data; |
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} upb_Message_Extension; |
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/* Adds the given extension data to the given message. |ext| is copied into the |
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* message instance. This logically replaces any previously-added extension with |
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* this number */ |
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upb_Message_Extension* _upb_Message_GetOrCreateExtension( |
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upb_Message* msg, const upb_MiniTableExtension* ext, upb_Arena* arena); |
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/* Returns an array of extensions for this message. Note: the array is |
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* ordered in reverse relative to the order of creation. */ |
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const upb_Message_Extension* _upb_Message_Getexts(const upb_Message* msg, |
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size_t* count); |
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/* Returns an extension for the given field number, or NULL if no extension |
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* exists for this field number. */ |
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const upb_Message_Extension* _upb_Message_Getext( |
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const upb_Message* msg, const upb_MiniTableExtension* ext); |
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void _upb_Message_Clearext(upb_Message* msg, const upb_MiniTableExtension* ext); |
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// LINT.IfChange(presence_logic) |
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/** Hasbit access *************************************************************/ |
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UPB_INLINE size_t _upb_hasbit_ofs(size_t idx) { return idx / 8; } |
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UPB_INLINE char _upb_hasbit_mask(size_t idx) { return 1 << (idx % 8); } |
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UPB_INLINE bool _upb_hasbit(const upb_Message* msg, size_t idx) { |
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return (*UPB_PTR_AT(msg, _upb_hasbit_ofs(idx), const char) & |
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_upb_hasbit_mask(idx)) != 0; |
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} |
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UPB_INLINE void _upb_sethas(const upb_Message* msg, size_t idx) { |
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(*UPB_PTR_AT(msg, _upb_hasbit_ofs(idx), char)) |= _upb_hasbit_mask(idx); |
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} |
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UPB_INLINE void _upb_clearhas(const upb_Message* msg, size_t idx) { |
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(*UPB_PTR_AT(msg, _upb_hasbit_ofs(idx), char)) &= ~_upb_hasbit_mask(idx); |
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} |
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UPB_INLINE size_t _upb_Message_Hasidx(const upb_MiniTableField* f) { |
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UPB_ASSERT(f->presence > 0); |
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return f->presence; |
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} |
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UPB_INLINE bool _upb_hasbit_field(const upb_Message* msg, |
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const upb_MiniTableField* f) { |
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return _upb_hasbit(msg, _upb_Message_Hasidx(f)); |
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} |
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UPB_INLINE void _upb_sethas_field(const upb_Message* msg, |
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const upb_MiniTableField* f) { |
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_upb_sethas(msg, _upb_Message_Hasidx(f)); |
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} |
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UPB_INLINE void _upb_clearhas_field(const upb_Message* msg, |
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const upb_MiniTableField* f) { |
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_upb_clearhas(msg, _upb_Message_Hasidx(f)); |
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} |
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/** Oneof case access *********************************************************/ |
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UPB_INLINE uint32_t* _upb_oneofcase(upb_Message* msg, size_t case_ofs) { |
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return UPB_PTR_AT(msg, case_ofs, uint32_t); |
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} |
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UPB_INLINE uint32_t _upb_getoneofcase(const void* msg, size_t case_ofs) { |
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return *UPB_PTR_AT(msg, case_ofs, uint32_t); |
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} |
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UPB_INLINE size_t _upb_oneofcase_ofs(const upb_MiniTableField* f) { |
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UPB_ASSERT(f->presence < 0); |
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return ~(ptrdiff_t)f->presence; |
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} |
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UPB_INLINE uint32_t* _upb_oneofcase_field(upb_Message* msg, |
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const upb_MiniTableField* f) { |
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return _upb_oneofcase(msg, _upb_oneofcase_ofs(f)); |
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} |
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UPB_INLINE uint32_t _upb_getoneofcase_field(const upb_Message* msg, |
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const upb_MiniTableField* f) { |
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return _upb_getoneofcase(msg, _upb_oneofcase_ofs(f)); |
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} |
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UPB_INLINE bool _upb_has_submsg_nohasbit(const upb_Message* msg, size_t ofs) { |
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return *UPB_PTR_AT(msg, ofs, const upb_Message*) != NULL; |
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} |
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// LINT.ThenChange(GoogleInternalName2) |
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/* Map entries aren't actually stored, they are only used during parsing. For |
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* parsing, it helps a lot if all map entry messages have the same layout. |
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* The compiler and def.c must ensure that all map entries have this layout. */ |
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typedef struct { |
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upb_Message_Internal internal; |
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union { |
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upb_StringView str; /* For str/bytes. */ |
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upb_value val; /* For all other types. */ |
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} k; |
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union { |
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upb_StringView str; /* For str/bytes. */ |
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upb_value val; /* For all other types. */ |
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} v; |
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} upb_MapEntry; |
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#ifdef __cplusplus |
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} /* extern "C" */ |
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#endif |
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#include "upb/port/undef.inc" |
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#endif /* UPB_MSG_INT_H_ */
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